Learning outcomes:
After the completion of the Master's Programme in Applied Physics the graduate
- has developed skills
in applied physics with a focus on semiconductor technology, smart
materials, superconductors, experimental physics instrumentation, and
computational physics, including data analysis of experiments.
- has learned the basic
theory, problem solving practices, and computational and experimental
methods in applied physics.
- is able to perform
pilot simulations and experiments to tackle new phenomena, operate
experimental setups, manage data, estimate errors and uncertainties, and
communicate new concepts in physics effectively.
- is able to apply the
concepts to new problems including the development of clean energy,
advancements in communication and information technologies, and health and
environmental sciences.
- has gained competence
to learn and work independently.
- has gained a
professional network, for example, by having access to CERN and to other
prestigious laboratories, universities, and industries around the world.
- has a solid foundation for further education and
continuous learning.